Can be connected SHOPFLOW&comma; MES&comma; IMS&comma; PMS and other management systems

Database

Each model can be archived and made directly when it is generated again

Engraving angle

0-360 degrees

Other

Input voltage

AC220V 50&sol;60HZ

Air pressure

≥0&period;5Mpa

Environmental requirements

5-40ºC 30-80RH

Equipment power

1&period;5KVA&sol;1&period;8KVA&lpar;S510&rpar;

1&period;2KVA

1&period;2KVA

1&period;2KVA

Equipment size &lpar;L &ast; W &ast; H mm&rpar;

850×1410×1450mm&sol;1250×1410×1450mm&lpar;s510&rpar;

680×1250×1650mm

680×1250×1650mm

680×1250×1650mm

Equipment weight

650KG&sol;750KG&lpar;S510&rpar;

550KG

550KG

550KG

Features&colon;1&period;3D engraving industry's first laser system for PCB developmentAutomatic Z-axis step can also be achieved precision marking2&period;Panasonic single machine laser headMachine imported&comma; without any domestic assembly parts&period;&lpar;Components shown in Figure 4 below&comma; including&colon;Laser generator - beam expander - beam mirror -3D galvanometer - field mirror&rpar;3&period;Yasukawa bus control systemMECHATROLINK is a high-speed field communication bus that includes MECHATROLINK I &lpar;formerly MECHATROLINK&rpar; and 10Mbps MECHATROLINK 2 with a communication speed of 4Mbps&period;It realizes and receives information such as position data&comma; speed data&comma; input and output status for real-time and accurate reception &comma; The completion of flexible&comma; high-precision motion control&comma; especially for the need for coordination between the axis synchronization and interpolation control applications&comma; in addition to the necessary mechanical control of the torque&comma; location&comma; speed control function&comma; but also to achieve the required precision &sol; Stable &sol; anti-interference very high phase coordination control&comma; but also to complete the online arbitrary switching control&comma; such as the system in the position control mode&comma; the online switch to torque control&comma; so that complex mechanical action can be efficient and smooth control4&period;Laser galvanometer Z-axis control structure Built-in Z-axis structure to significantly improve the quality of engraving&semi;To enhance the printing efficiency&semi;5&period;Dedicated software new touch interface&comma; easy to understand the operation6&period;Data is interconnected with MES &sol; ERP &sol; PMS systems7&period;Badmark recognition&colon;When the puzzle automatically skip the bad board&comma; the data feedback to the placement machine&comma; a substantial savings chip recognition time1&period;3D engraving industry's first laser system for PCB developmentAutomatic Z-axis step can also be achieved precision marking2&period;Panasonic single machine laser headMachine imported&comma; without any domestic assembly parts&period;&lpar;Components shown in Figure 4 below&comma; including&colon;Laser generator - beam expander - beam mirror -3D galvanometer - field mirror&rpar;3&period;Yasukawa bus control systemMECHATROLINK is a high-speed field communication bus that includes MECHATROLINK I &lpar;formerly MECHATROLINK&rpar; and 10Mbps MECHATROLINK 2 with a communication speed of 4Mbps&period;It realizes and receives information such as position data&comma; speed data&comma; input and output status for real-time and accurate reception &comma; The completion of flexible&comma; high-precision motion control&comma; especially for the need for coordination between the axis synchronization and interpolation control applications&comma; in addition to the necessary mechanical control of the torque&comma; location&comma; speed control function&comma; but also to achieve the required precision &sol; Stable &sol; anti-interference very high phase coordination control&comma; but also to complete the online arbitrary switching control&comma; such as the system in the position control mode&comma; the online switch to torque control&comma; so that complex mechanical action can be efficient and smooth control4&period;Laser galvanometer Z-axis control structure Built-in Z-axis structure to significantly improve the quality of engraving&semi;To enhance the printing efficiency&semi;5&period;Dedicated software new touch interface&comma; easy to understand the operation6&period;Data is interconnected with MES &sol; ERP &sol; PMS systems7&period;Badmark recognition&colon;When the puzzle automatically skip the bad board&comma; the data feedback to the placement machine&comma; a substantial savings chip recognition time

If you have any questions&comma; please contact me or call me directly